Abstract
Human neurons express the innate immune response receptor, Toll-like receptor 3 (TLR3). TLR3 levels are increased in pathological conditions such as brain virus infection. Here, we further investigated the production, cellular localisation, and function of neuronal TLR3 during neuronotropic rabies virus (RABV) infection in human neuronal cells. Following RABV infection, TLR3 is not only present in endosomes, as observed in the absence of infection, but also in detergent-resistant perinuclear inclusion bodies. As well as TLR3, these inclusion bodies contain the viral genome and viral proteins (N and P, but not G). The size and composition of inclusion bodies and the absence of a surrounding membrane, as shown by electron microscopy, suggest they correspond to the previously described Negri Bodies (NBs). NBs are not formed in the absence of TLR3, and TLR3−/− mice—in which brain tissue was less severely infected—had a better survival rate than WT mice. These observations demonstrate that TLR3 is a major molecule involved in the spatial arrangement of RABV–induced NBs and viral replication. This study shows how viruses can exploit cellular proteins and compartmentalisation for their own benefit.
Highlights
Toll-like receptors (TLR) are innate immune receptors that recognise and respond to the presence of PAMPS encoded by pathogens [1]
We showed that rabies virus exploits Toll-like receptor 3 (TLR3) function to store viral proteins and viral genomic material in particular areas of the cell where virus multiplication occurs
These inclusions were composed of an inner core of aggregated TLR3 surrounded by a coat of viral proteins and genomic material
Summary
Toll-like receptors (TLR) are innate immune receptors that recognise and respond to the presence of PAMPS (pathogen associated molecular patterns) encoded by pathogens [1]. TLR3 is a type I intracellular transmembrane protein that contains a large leucine-rich repeat (LRR) in the extracellular region and a Toll/Il1 receptor homology (TIR) signalling domain in its cytoplasmic region. TLR3 can detect the presence of and respond to exogenous and endogenous RNA molecules: dsRNA of viral origin, mimicked by polyriboinosine-polyribocytidylic acid (polyI:C); mRNA; and ssRNA (polyinosinic acid) [2,3,4]. TLR3 signals via a MyD88-independent signalling pathway involving the adaptor molecule TRIF/Ticam-1 [5,6]. TLR3-dependent activation leads to the expression of genes encoding proinflammatory cytokines, chemokines and IFN-a/b
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